Zizhen Liang scite author profile

SUMMARY Nuclear transport of immune receptors, signal transducers, and transcription factors is an essential regulatory mechanism for immune activation. Whether and how this process is regulated at the level of the nuclear pore complex (NPC) remains unclear. Here we report that CPR5, which plays a key inhibitory role in effector-triggered immunity (ETI) and programmed cell death (PCD) in plants, is a novel transmembrane nucleoporin. CPR5 associates with anchors of the NPC selective barrier to constrain nuclear access of signaling cargos and sequesters Cyclin-dependent Kinase Inhibitors (CKIs) involved in ETI signal transduction. Upon activation by immunoreceptors, CPR5 undergoes an oligomer to monomer conformational switch, which coordinates CKI release for ETI signaling and reconfigures the selective barrier to allow significant influx of nuclear signaling cargos through the NPC. Consequently, these coordinated NPC actions result in simultaneous activation of diverse stress-related signaling pathways and constitute an essential regulatory mechanism specific for ETI/PCD induction.

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SH3 Domain-Containing Protein 2 Plays a Crucial Role at the Step of Membrane Tubulation during Cell Plate Formation

Ahn

Kim

et al. 2017

Plant Cell

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During cytokinesis in plants, -Golgi network-derived vesicles accumulate at the center of dividing cells and undergo various structural changes to give rise to the planar cell plate. However, how this conversion occurs at the molecular level remains elusive. In this study, we report that SH3 Domain-Containing Protein 2 (SH3P2) in plays a crucial role in converting vesicles to the planar cell plate. RNAi plants showed cytokinesis-defective phenotypes and produced aggregations of vesicles at the leading edge of the cell plate. SH3P2 localized to the leading edge of the cell plate, particularly the constricted or curved regions of the cell plate. The BAR domain of SH3P2 induced tubulation of vesicles. SH3P2 formed a complex with dynamin-related protein 1A (DRP1A) and affected DRP1A accumulation to the cell plate. Based on these results, we propose that SH3P2 functions together with DRP1A to convert the fused vesicles to tubular structures during cytokinesis.

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Friendly mediates membrane depolarization-induced mitophagy in Arabidopsis

Liang

Zhao

et al. 2021

Current Biology

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Thylakoid-Bound Polysomes and a Dynamin-Related Protein, FZL, Mediate Critical Stages of the Linear Chloroplast Biogenesis Program in Greening Arabidopsis Cotyledons

et al. 2018

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Biogenesis of the complex 3D architecture of plant thylakoids remains an unsolved problem. Here, we analyzed this process in chloroplasts of germinating cotyledons using 3D electron microscopy and gene expression analyses of chloroplast proteins. Our study identified a linear developmental sequence with five assembly stages: tubulo-vesicular prothylakoids (24 h after imbibition [HAI]), sheet-like pregranal thylakoids that develop from the prothylakoids (36 HAI), proliferation of pro-grana stacks with wide tubular connections to the originating pregrana thylakoids (60 HAI), structural differentiation of pro-grana stacks and expanded stroma thylakoids (84 HAI), and conversion of the pro-grana stacks into mature grana stacks (120 HAI). Development of the planar pregranal thylakoids and the pro-grana membrane stacks coincides with the appearance of thylakoid-bound polysomes and photosystem II complex subunits at 36 HAI. ATP synthase, cytochrome, and light-harvesting complex II proteins are detected at 60 HAI, while PSI proteins and the curvature-inducing CURT1A protein appear at 84 HAI. If stromal ribosome biogenesis is delayed, prothylakoids accumulate until stromal ribosomes are produced, and grana-forming thylakoids develop after polysomes bind to the thylakoid membranes. In () mutants, in which thylakoid organization is perturbed, pro-grana stacks in cotyledons form discrete, spiral membrane compartments instead of organelle-wide membrane networks, suggesting that FZL is involved in fusing membrane compartments together. Our data demonstrate that the assembly of thylakoid protein complexes, CURT1 proteins, and FZL proteins mediate distinct and critical steps in thylakoid biogenesis.

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Arabidopsis ORP2A mediates ER–autophagosomal membrane contact sites and regulates PI3P in plant autophagy

Gao

Liang

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Autophagy is an intracellular degradation system for cytoplasmic constituents which is mediated by the formation of a double-membrane organelle termed the autophagosome and its subsequent fusion with the lysosome/vacuole. The formation of the autophagosome requires membrane from the endoplasmic reticulum (ER) and is tightly regulated by a series of autophagy-related (ATG) proteins and lipids. However, how the ER contacts autophagosomes and regulates autophagy remain elusive in plants. In this study, we identified and demonstrated the roles of Arabidopsis oxysterol-binding protein–related protein 2A (ORP2A) in mediating ER–autophagosomal membrane contacts and autophagosome biogenesis. We showed that ORP2A localizes to both ER–plasma membrane contact sites (EPCSs) and autophagosomes, and that ORP2A interacts with both the ER-localized VAMP-associated protein (VAP) 27-1 and ATG8e on the autophagosomes to mediate the membrane contact sites (MCSs). In ORP2A artificial microRNA knockdown (KD) plants, seedlings display retarded growth and impaired autophagy levels. Both ATG1a and ATG8e accumulated and associated with the ER membrane in ORP2A KD lines. Moreover, ORP2A binds multiple phospholipids and shows colocalization with phosphatidylinositol 3-phosphate (PI3P) in vivo. Taken together, ORP2A mediates ER–autophagosomal MCSs and regulates autophagy through PI3P redistribution.

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Zizhen Liang

Nuclear Pore Permeabilization Is a Convergent Signaling Event in Effector-Triggered Immunity

SH3 Domain-Containing Protein 2 Plays a Crucial Role at the Step of Membrane Tubulation during Cell Plate Formation

Friendly mediates membrane depolarization-induced mitophagy in Arabidopsis

Thylakoid-Bound Polysomes and a Dynamin-Related Protein, FZL, Mediate Critical Stages of the Linear Chloroplast Biogenesis Program in Greening Arabidopsis Cotyledons

Arabidopsis ORP2A mediates ER–autophagosomal membrane contact sites and regulates PI3P in plant autophagy

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